Product | Palladium Oxide Nanopowder | |
Stock No | NS6130-03-377 | |
CAS | 1314-08-5 | Confirm |
Purity | 99.9% | Confirm |
APS | <80nm | Confirm |
Molecular Formula | PdO | Confirm |
Molecular Weight | 122.42 g/mol | Confirm |
Form | Powder | Confirm |
Color | Greenish-black | Confirm |
Density | 8.7 g/cm³ | Confirm |
Melting Point | 750 °C | Confirm |
Solubility | Insoluble in water, Acid | |
Quality Control | Each Lot of was tested successfully | |
Main Inspect Verifier | Manager QC |
Typical Chemical Analysis
Assay | 99.9% |
Other Metal | 800ppm |
Palladium oxide nanoparticles have a tetragonal structure, it shows various properties such as mechanical, optical, and catalytic which makes it more useful in industrial applications. It’s widely used in the electro-catalysis and also it has the ability to absorb the hydrogen so these are utilized in the hydrogen-storage. Moreover, it is also used in electrochemical reactions in fuel cells. The size and the shape of the palladium oxide can be tailored and so these are used for different applications.
The sensing properties to oxidizing gases of palladium (II) oxide nanostructures were tested on ultrathin and thin films at detection of ozone and nitrogen dioxide One part of ecologists is sure that increase in the content of low-level ozone in atmospheric air is caused mainly by an intensification of industrial production, motor, and air transport. Undoubtedly, ozone gas is applied in many fields such as food, pharmaceutical, textile, and chemical industries, water treatment, and purification of gases.
Palladium silver oxide is used for dentistry in applications such as bridges and crowns. Palladium Silver oxides are also used in conductive films and pastes, as well as to make multilayer capacitors. The addition of palladium to silver increases its resistance to tarnishing or the formation of silver sulfide. However, they are not considered tarnish-resistant until the composition reaches 60% Palladium/40% Silver. They are also used in AC and DC low current electronic applications, often as contacts. This is because they are ductile and can easily be made into the required shape.
One of the most important environments monitoring problems is the detection of oxidizing gases in the ambient air. The negative impact of noxious oxidizing gases (ozone and nitrogen oxides) on human health, sensitive vegetation, and ecosystems is very serious. For this reason, palladium (II) oxide nanostructures have been employed for oxidizing gas detection.
Palladium belongs to block D and oxygen belongs to block P. This compound has ample applications such as used in the composition of electrical equipment or as sensors for the detection of different types of analytes. It has been widely employed for catalytic oxidation of benzyl alcohol, oxidation of hydrocarbons, sensing of OH radicals, photocatalytic degradation of bacterial indicators, etc.
Palladium oxide nanoparticles have a tetragonal structure, it shows various properties such as mechanical, optical, and catalytic which makes it more useful in industrial applications. It’s widely used in the electro-catalysis and also it has the ability to absorb the hydrogen so these are utilized in the hydrogen-storage. Moreover, it is also used in electrochemical reactions in fuel cells. The size and the shape of the palladium oxide can be tailored and so these are used for different applications.
Palladium belongs to block D and oxygen belongs to block P. This compound has ample applications such as used in the composition of electrical equipment or as sensors for the detection of different types of analytes. It has been widely employed for catalytic oxidation of benzyl alcohol, oxidation of hydrocarbons, sensing of OH radicals, photocatalytic degradation of bacterial indicators, etc.
Palladium silver oxide is used for dentistry in applications such as bridges and crowns. Palladium Silver oxides are also used in conductive films and pastes, as well as to make multilayer capacitors. The addition of palladium to silver increases its resistance to tarnishing or the formation of silver sulfide. However, they are not considered tarnish-resistant until the composition reaches 60% Palladium/40% Silver. They are also used in AC and DC low current electronic applications, often as contacts. This is because they are ductile and can easily be made into the required shape.
One of the most important environments monitoring problems is the detection of oxidizing gases in the ambient air. The negative impact of noxious oxidizing gases (ozone and nitrogen oxides) on human health, sensitive vegetation, and ecosystems is very serious. For this reason, palladium (II) oxide nanostructures have been employed for oxidizing gas detection.
The sensing properties to oxidizing gases of palladium (II) oxide nanostructures were tested on ultrathin and thin films at detection of ozone and nitrogen dioxide One part of ecologists is sure that increase in the content of low-level ozone in atmospheric air is caused mainly by an intensification of industrial production, motor, and air transport. Undoubtedly, ozone gas is applied in many fields such as food, pharmaceutical, textile, and chemical industries, water treatment, and purification of gases.
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Palladium Oxide Nanoparticles (PdO, Purity: 99.9 %, APS: <80nm)